نوع مقاله : مقاله پژوهشی
نویسندگان
1 گروه نانوفناوری مواد غذایی، مؤسسه پژوهشی علوم و صنایع غذایی، ایران.
2 دانشیار گروه نانو فناورى مواد غذایى، مؤسسه پژوهشی علوم و صنایع غذایى، مشهد، ایران
3 موسسه پژوهشی علوم و صنایع غذایی
چکیده
کاراگینان از دسته پلی ساکاریدهای دریایی است که به واسطه حضور گروهای سولفیتی در زنجیره دارای خصوصیات عملگرایی ویژهای میباشد. در این پژوهش تاثیر تجمع زنجیرهای در نتیجه حضور یون های پتاسیم و کلسیم بر خصوصیات بافتی ژل مخلوط کاپا- یوتا کاراگینان بررسی گردید. خصوصیات بافتی در آزمون سوراخ کردن جهت مطالعه خصوصیات بافتی ژل های تشکیل شده شامل سختی، سفتی، مدول تغییر شکل پذیری، ارتجاعیت ، نقطه تسلیم، محدوده رفتار خطی و آزمون رهایش تنش جهت بررسی تاثیر نوع تجمع زنجیرهای و نسبت بیوپلیمری بر خصوصیات تنزل تنش در نتیجه نوع شبکه تشکیل شده انجام پذیرفت. نتایج نشان دهنده اثر مطلوب یون پتاسیم بر شبکه کاپا کاراگینان، ایجاد تجمع های درون زنجیرهای و در نتیجه، افزایش پارامترهای فوق الذکر میباشد. از سوی دیگر، ساختار ایجاد شده در حضور یون کلسیم، دارای مدول تغییر شکل پذیری بالاتر در نتیجه ایجاد تجمعات بین زنجیرهای در شبکه است که این امر موجب کاهش پارامترهای سفتی، ارتجاعیت و نقطه تسلیم می گردد. در خصوص تغییر در نسبت بیوپلیمری در ژل های مورد بررسی، نتایج نشان دهنده افزایش پارامترهای ارتجاعیت و نقطه تسلیم با افزایش سطح یوتا کاراگینان در ژل ها به واسطه غالب شدن ساختار با درجه بالا از انعطاف پذیری زنجیرهای میباشد. نتایج آزمون رهایی تنش نشان داد که زمان تنزل تنش اولیه در ژلهای حاوی یون پتاسیم بیشتر از ژلهای تشکیل شده در حضور یون کلسیم است. همچنین روند تغییرات در مدول تغییر شکل پذیری محاسبه شده با استفاده از مدل پلگ- نورمند دارای مشابهت با نتایج آزمون سوراخ کردن است.
کلیدواژهها
عنوان مقاله [English]
Evaluation of the effect of chain association type on the textural characteristics of kappa- iota carrageenan mixed gel
نویسندگان [English]
- Amir Jajarmi 1
- Bahareh Emadzadeh 2
- Rassoul Kadkhodaee 3
1 Department of Food Nanotechnology, Research Institute of Food Science and Technology, Mashhad, Iran.
2 Associate Professor, Research Institute of Food Science and Technology (RIFST), Mashhad, Iran
3 Research Institute of Food Science and Technology (RIFST)
چکیده [English]
Introduction: Carrageenans are a family of linear sulphated polysaccharides that have broad applications in the food sector and pharmaceutical industry. Based on the degree of sulphation (polyelectrolytes) in carrageenan, only Kappa and Iota carrageenan have the ability of forming a gel structure. The mechanical characteristics of their gels, however, is affected by the polyelectrolyte nature of their chains. Iota and kappa carrageenan provide elastic soft gel and brittle rigid one, respectively, in the presence of calcium and potassium salts as their favored ions; while their mixture provides a broad range of structures with unique textures. The combination of these two biopolymers would result in a broad range of unique textures for different applications. The aim of this Study was to determine the effect of chain association (molecular association) on the textural properties of kappa- Iota carrageenan mixed gel. The texture of gels was investigated through the puncture test to determine some properties including hardness, toughness, deformability modulus, resilience, yield point, and proportional limit. In addition, the stress relaxation test was applied to evaluate the effect of the chain association formed in the network on the stress decay parameter.
Materials and Methods: A commercial Kappa-carrageenan, Genugel type, and Iota- carrageenan, Genuvisco type without further purification were purchased from CP Kelco (Lille Skensved, Denmark). Potassium chloride (KCl) and calcium chloride dihydrate (CaCl2•2H2O) of analytical grade were purchased from Merck company. The mixtures were prepared in 2:1, 1.5:1.5 and 1:2 ratios and the final concentration of 0.3% w/w biopolymer. Both calcium and potassium chloride were added using a strategy adopted for each salt for keeping the same ionic strength of molar concentrations of 2.5, 5 and 7 mmol in the biopolymer dispersions. The mechanical properties of the gels were investigated using an XT. T2 Texture Analyzer (Stable Micro Systems, Surrey, UK). Peltier system was utilized in adjusting the temperature at 4oC. The samples were equilibrated at least 10 min before performing the test. Crosshead speed was adjusted at 10 mm/min to a 12 mm depth (50% from total length) from the surface of the samples using a 1 mm diameter cylindrical aluminum probe for puncture test and a 2 mm/min crosshead speed using a 75 mm diameter cylindrical aluminum probe in 20% strain was applied for the stress relaxation test during 60 second time interval. Pleg and Normand equation was applied for the determination of viscoelastic properties of samples.
Result & discussion: Among different methods in the mechanical study of biopolymer gel, the puncture test is a promising method due to its ability in applying normal and shear forces on and into the structure simultaneously. In the presence of calcium and Potassium salts, the same pattern in the puncture curve was observed with increasing of ionic strength in the medium. According to the chain association formed as a result of the ion type, the pattern shows a transient from the elastic to the plastic deformation with different limits. The hardness as a parameter that indicates a composite biopolymer network resistance to break up, showed a higher value for the network containing Potassium salt. It would be due to the formed intra chain association in the system. For calcium salt, the results revealed a small variation in the hardness parameter with increasing the ionic strength. The area under the curve of stress- time is defined as toughness of the structure. The network formed by the intra chain association in the presence of potassium shows a free chain movement which leads to a plastic deformation with absorbing more energy before breaking the gel structure. Concerning the type of chain association, higher values of deformability modulus in the gels containing calcium salt is reasonable. Resilience, yield point and proportional limit are the characters related to the network homogeneity and bond stretching. In the networks with no depletion region, applying an external force to the body would lead to a uniform change in the initial state of the structure. In this kind of netwoks, the force distributed in the whole structure uniformly and local stress is not created. The chain movement as a result of bond stretching, causes a back stress occurance in the structure. When the primary stress is eliminated, the accumulated back stress will make the polymer to return to its original form. Interweaving the network by the intra chain association will result in a homogenous network formation and subsequently, to a higher parameter values in the linear region. The large deformation measurements were performed through the stress relaxation test to study the response of the structure during the interval times and to evaluate the viscoelastic properties of biopolymers network. Longer stress decay time was observed for the network developed in the presence of Potassium salt. The result obtained by studying the stress decay rate was in agreement with the properties observed from the evaluation of the linear region in the puncture test. On the other hand, the deformability modulus values conform to the result from hypothetical asymptotic level of the normalized relaxation parameter.
کلیدواژهها [English]
- Chain association
- Carrageenan gel
- Textural properties
- Puncture test
- Stress relaxation test
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